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| FLUID CHARACTERISTICS | (A) |
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| What is a fluid? (此条链接失效) | (Aa) |
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| Fluid properties | (Ab) |
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| Pressure |
| (Aba) |
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| Density |
| (Abb) |
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| Compressibility |
| (Abc) |
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| Viscosity |
| (Abd) |
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| Surface Tension |
| (Ck) |
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| Contact Angle |
| (Cn) |
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| Thermodynamics | (Ac) |
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| Thermodynamic Variables |
| (Aca) |
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| Systems and Energies |
| (Acb) |
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| Thermodynamic Laws |
| (Acc) |
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| Perfect Gas |
| (Acd) |
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| Saturated Vapor/Liquid Properties |
| (Ace) |
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| References |
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| FLUID STATICS | (C) |
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| Pressure | (Ca) |
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| Fluid statics | (Cb) |
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| Oceans at rest | (Cc) |
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| Manometers | (Cd) |
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| Atmospheres | (Ce) |
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| Fluid static forces | (Cf) |
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| Archimedes Principle | (Cg) |
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| Stability of a submerged body | (Ch) |
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| Archimedes Principle for a floating body | (Ci) |
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| Stability of a floating body | (Cj) |
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| Surface Tension | (Ck) |
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| Pressure differences due to Surface Tension | (Cm) |
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| Contact Angle | (Cn) |
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| Meniscus | (Cp) |
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| Capillarity | (Cq) |
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| References |
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| BASIC FLUID DYNAMICS | (B) |
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| Descriptions of Fluid Motion | (Ba) |
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| Descriptions of Fluid Motions |
| (Baa) |
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| Fluid Accelerations |
| (Bab) |
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| Steady Flow |
| (Bac) |
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| Derivation of the Relation between the Time Derivatives |
| (Bad) |
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| Transport Thereom |
| (Bae) |
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| Kinematics of Fluid Motion | (Bb) |
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| Kinematics of Fluid Motions |
| (Bba) |
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| Illustration of Fluid Deformation |
| (Bbb) |
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| Conservation of Mass | (Bc) |
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| Conservation of Mass |
| (Bca) |
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| Control Volume |
| (Bcb) |
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| Macroscopic form of Continuity |
| (Bcc) |
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| Differential form of Continuity |
| (Bcd) |
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| Continuity equation in various coordinate systems |
| (Bce) |
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| Integral form of Continuity |
| (Bcf) |
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| Streamlines, Pathlines and Streaklines |
| (Bcg) |
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| Streamfunction |
| (Bch) |
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| Examples of streamfunctions |
| (Bcj) |
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| Newton's Law | (Bd) |
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| Newton's Law of Motion |
| (Bda) |
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| Euler's Equations of Motion |
| (Bdb) |
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| Euler's Equations of Motion in Other Coordinates |
| (Bdc) |
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| Vorticity |
| (Bdd) |
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| Circulation |
| (Bde) |
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| Kelvin's Theorem |
| (Bdj) |
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| Velocity Potential |
| (Bdf) |
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| Bernoulli's Equation |
| (Bdg) |
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| Energy Implications of Bernoulli's Equation |
| (Bdh) |
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| Momentum Theorem | (Be) |
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| Linear Momentum Theorem |
| (Bea) |
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| Example: Arbitrary Duct |
| (Beb) |
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| Example: Fire Hose Nozzle |
| (Bec ) |
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| Example: Fire Hose with Bend |
| (Bed) |
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| Connection between drag and a wake |
| (Bee) |
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| Jet Engine |
| (Bef) |
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| Rocket Engine |
| (Beg) |
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| Angular Momentum Theorem |
| (Beh) |
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| Example: Pump or Turbine |
| (Bei) |
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| Steady one-dimensional internal flows | (Bf) |
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| Hydraulic System Analysis |
| (Bfa) |
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| Viscous Losses in Incompressible Fluid Flows |
| (Bfb) |
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| Viscous losses in pipes |
| (Bfc) |
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| Viscous Losses in Fittings |
| (Bfd) |
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| Diffusers and Nozzles |
| (Bfe) |
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| Incompressible Flows with External Energy Exchange |
| (Bff) |
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| Pumps and Turbines |
| (Bfg) |
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| Turbomachine Design |
| (Bfh) |
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| Turbomachine Performance |
| (Bfi) |
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| Unsteady one-dimensional internal flows | (Bn) |
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| Introduction |
| (Bna) |
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| System Analysis |
| (Bnb) |
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| Quasistatic Stability Analysis |
| (Bnc) |
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| Quasistatic Stability Analyses |
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| (Bnca) |
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| Turbomachine Surge |
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| (Bncb) |
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| Ledinegg Instability |
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| (Bncc) |
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| Geyser Instability |
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| (Bncd) |
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| Unsteady Bernoulli Equation |
| (Bnd) |
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| Unsteady Bernoulli Equation for a Pipe |
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| (Bnda) |
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| Manometer Oscillations |
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| (Bndb) |
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| Dynamic Instabilities |
| (Bne) |
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| Dynamic Instabilities |
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| (Bnea) |
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| Cavitation Surge of Cavitating Pumps |
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| (Bneb) |
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| Condensation Oscillations and Chugging |
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| (Bnec) |
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| Time Domain Methods |
| (Bnf) |
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| Time Domain Methods |
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| (Bnfa) |
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| Wave Propagation in Ducts |
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| (Bnfb) |
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| Method of Characteristics |
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| (Bnfc) |
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| Turbomachine Dynamics |
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| (Bnfd) |
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| Frequency Domain Methods |
| (Bng) |
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| Frequency Domain Methods |
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| (Bnga) |
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| System with Rigid Body Vibration |
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| (Bngk) |
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| Order of the System |
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| (Bngb) |
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| Transfer Matrices |
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| (Bngc) |
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| Distributed Systems |
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| (Bngd) |
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| Combinations of Transfer Matrices |
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| (Bnge) |
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| Properties of Transfer Matrices |
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| (Bngf) |
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| Measurement of Transfer Matrices |
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| (Bngl) |
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| Some Simple Transfer Matrices |
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| (Bngg) |
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| Fluctuation Energy Flux |
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| (Bngh) |
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| Non-Cavitating Pumps |
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| (Bngi) |
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| Cavitating Inducers |
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| (Bngj) |
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| Cavitating Turbine |
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| (Bngm) |
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| Cavitating Propeller |
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| (Bngn) |
| Incompressible, Inviscid, Irrotational Flow | (Bg) |
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| Potential Flow |
| (Bga) |
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| Methods of Solution of Laplace's Equation |
| (Bgb) |
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| Gravity Waves on a Liquid Surface |
| (Bgc) |
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| Separation of Variables (Cartesian) |
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| (Bgca) |
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| Gravity Wave Boundary Conditions |
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| (Bgcb) |
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| Gravity Waves on an Infinitely Deep Ocean |
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| (Bgcc) |
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| Gravity Waves on an Finite-Depth Ocean |
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| (Bgcd) |
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| Standing Gravity Waves |
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| (Bgce) |
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| Gravity Waves at Vertical Boundaries |
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| (Bgcf) |
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| Fundamental Singularities |
| (Bgd) |
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| Separation of Variables in Polar Coordinates |
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| (Bgda) |
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| Solution to Potential Flow in Polar Coordinates |
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| (Bgdb) |
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| The Free Vortex |
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| (Bgdc) |
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| Sources and Sinks |
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| (Bgdd) |
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| Planar Rankine Half-Bodies |
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| (Bgde) |
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| Planar Doublet |
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| (Bgdf) |
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| Planar Rankine Body |
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| (Bgdg) |
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| Potential Flow around a Cylinder |
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| (Bgdh) |
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| Cylinder with Circulation in a Uniform Stream |
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| (Bgdi) |
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| Lift and Drag in Potential Flow |
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| (Bgdj) |
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| Kelvin Ovals |
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| (Bgdk) |
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| Vortex Sheets |
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| (Bgdl) |
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| Images and Walls |
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| (Bgdm) |
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| Point Singularities |
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| (Bgdn) |
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| Methods of Complex Variables |
| (Bge) |
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| Cauchy-Riemann Equations |
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| (Bgea) |
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| Complex Variables for Planar Potential Flows |
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| (Bgeb) |
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| Conformal Mapping |
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| (Bgec) |
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| Joukowski Airfoils |
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| (Bged) |
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| Flat Plate at an Angle of Attack |
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| (Bgee) |
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| Axisymmetric Flow |
| (Bgf) |
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| Axisymmetric Flow |
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| (Bgfa) |
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| Axisymmetric Flow without Swirl |
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| (Bgfb) |
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| Axisymmetric Flow with Swirl |
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| (Bgfc) |
| General Equations of Motion | (Bh) |
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| Stress Tensor |
| (Bha) |
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| Equations of Motion in terms of Stress |
| (Bhb) |
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| Constitutive Laws |
| (Bhc) |
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| Constitutive Laws in Cylindrical Coordinates |
| (Bhd) |
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| Constitutive Laws in Spherical Coordinates |
| (Bhe) |
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| Navier-Stokes Equations |
| (Bhf) |
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| Navier-Stokes Equations in Cylindrical Coordinates |
| (Bhg) |
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| Navier-Stokes Equations in Spherical Coordinates |
| (Bhh) |
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| Vorticity Transport Equation |
| (Bhi) |
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| Exact Solutions to Navier-Stokes Equations | (Bi) |
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| Introduction to Exact Solutions of Navier-Stokes Equations |
| (Bia) |
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| Couette and Planar Poiseuille Flow |
| (Bib) |
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| Poiseuille Flow |
| (Bic) |
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| Radial Flow |
| (Bid) |
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| Vortex Flow |
| (Bie) |
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| Rayleigh and Ekman Flow |
| (Bif) |
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| Laminar Round Jet |
| (Big) |
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| Category 2 Solutions |
| (Bih) |
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| Boundary Layer Flows | (Bj) |
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| Introduction to Boundary Layer Flows |
| (Bja) |
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| Laminar Boundary Layer Equations |
| (Bjb) |
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| Exact Solutions to Laminar Boundary Layer Equations |
| (Bjc) |
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| Blasius Solution |
| (Bjd) |
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| Falkner-Skan Solutions |
| (Bje) |
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| Thicknesses and Surface Stress |
| (Bjf) |
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| Development of Laminar Boundary Layers |
| (Bjg) |
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| Karman Momentum Integral Equation |
| (Bjh) |
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| Approximate Methods |
| (Bji) |
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| Effect of Suction |
| (Bjj) |
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| Turbulence | (Bk) |
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| Introduction to Turbulence |
| (Bka) |
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| The Development of Turbulence |
| (Bkb) |
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| Linear Stability Analyses |
| (Bkc) |
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| Stability of Parallel Flows |
| (Bkd) |
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| Amplification of Disturbances |
| (Bke) |
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| Turbulence Spectra and Scales |
| (Bkf) |
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| Reynolds Stresses |
| (Bkg) |
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| Computing Turbulent Flows |
| (Bkn) |
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| Turbulence Models |
| (Bkh) |
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| Turbulent Couette Flow |
| (Bki) |
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| Law of the Wall |
| (Bkj) |
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| Turbulent Pipe Flows |
| (Bkl) |
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| Rough Pipe Flows |
| (Bkm) |
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| Turbulent Boundary Layers |
| (Bkk) |
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| Stokes Flow | (Bl) |
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| Introduction to Stokes Flow |
| (Bla) |
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| Equations of Stokes Flow |
| (Blb) |
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| Singularities |
| (Blc) |
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| Slender Body Theory |
| (Bld) |
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| Resistive Force Theory |
| (Ble) |
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| Planar Flow |
| (Blf) |
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| Axisymmetric Flow |
| (Blg) |
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| Unsteady Flows | (Bm) |
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| Introduction |
| (Bma) |
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| Added Mass |
| (Bmb) |
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| Introduction |
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| (Bmba) |
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| Added Mass Matrix |
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| (Bmbb) |
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| Fluid Acceleration far from the Body |
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| (Bmbc) |
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| Values of the Added Mass |
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| (Bmbd) |
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| Added Mass for Joukowski Airfoils |
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| (Bmbe) |
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| Additional Effects on the Added Mass |
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| (Bmbf) |
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| Vortex Shedding |
| (Bmc) |
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| Compressible Flow | (Bo) |
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| Prelimaries for Compressible Flow |
| (Boa) |
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| One-Dimensional Isentropic Flow |
| (Bob) |
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| Energy Equation |
| (Boc) |
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| Speed of Sound |
| (Bod) |
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| Isentropic Duct Flows |
| (Boe) |
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| Choked Flow |
| (Bof) |
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| Effect of Friction in Duct Flows |
| (Bog) |
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| Shock Waves |
| (Boh) |
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| Rocket Engines |
| (Boi) |
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| Two-dimensional Flows |
| (Boj) |
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| Planar Supersonic Flows for Small Turn Angles |
| (Bok) |
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| Prandtl-Meyer Expansion Fan |
| (Bol) |
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| Oblique Shock Wave |
| (Bom) |
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| Compressible Potential Flow |
| (Bon) |
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| Supersonic Potential Flow |
| (Boo) |
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| Prandtl-Glauert Mapping |
| (Bop) |
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| Open Channel Flow | (Bp) |
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| Introduction to Open Channel Flows |
| (Bpa) |
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| Gravity Waves Boundary Conditions |
| (Bgcb) |
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| Gravity Waves on an Infinitely Deep Ocean |
| (Bgcc) |
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| Gravity Waves on an Finite-Depth Ocean |
| (Bgcd) |
|
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| Standing Waves |
| (Bgce) |
|
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| Gravity Waves at Vertical Boundaries |
| (Bgcf) |
|
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| Finite Amplitude Waves |
| (Bpb) |
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| Hydraulic Jumps |
| (Bpc) |
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| Frictionless Flow |
| (Bpd) |
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| The Effect of Friction |
| (Bpe) |
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| The Shallow Water Wave Equations |
| (Bpf) |
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| References |
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| EXTERNAL FLOWS AROUND OBJECTS | (D) |
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| Introduction to External Flows | (Da) |
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| Introduction |
| (Daa) |
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| Forces on Objects |
| (Dab) |
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| Drag | (Db) |
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| Introduction to Drag |
| (Dba) |
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| Relation between drag and the wake |
| (Dbb) |
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| Drag on a sphere or cylinder |
| (Dbc) |
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| Vortex generators |
| (Dbd) |
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| Form Drag |
| (Dbe) |
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| Skin Friction Drag |
| (Dbf) |
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| Wave Drag |
| (Dbg) |
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| Effects of Rotation |
| (Dbh) |
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| Lift | (Dc) |
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| Introduction to Lift |
| (Dca) |
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| Magnus Effect |
| (Dcb) |
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| General Relation between Lift and the Circulation |
| (Dcc) |
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| Effects of Rotation |
| (Dch) |
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| The Flat Plate Airfoil |
| (Dcd) |
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| Planar Airfoil Performance |
| (Dce) |
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| Finite Span Performance |
| (Dcf) |
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| Aircraft Flight |
| (Dcg) |
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| Propulsion | (Dd) |
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| Introduction to Propulsion |
| (Dda) |
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| Drag Propulsion |
| (Ddb) |
|
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| Propulsion Efficiency |
| (Ddc) |
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| Propeller Propulsion |
| (Ddd) |
|
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| Jet Propulsion |
| (Dde) |
|
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| Rocket Propulsion |
| (Ddf) |
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| Vortex Shedding | (De) |
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| Introduction to Vortex Shedding |
| (Dea) |
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| Animal Locomotion | (Df) |
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| Introduction to Animal Locomotion |
| (Dfa) |
|
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| High Reynolds Number Locomotion |
| (Dfb) |
|
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| Fish Locomotion |
| (Dfd) |
|
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| Fish Swimming Videos |
|
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| Bird Flight |
| (Dfe) |
|
|
| Low Reynolds Number Locomotion |
| (Dfc) |
|
|
| Prokaryotic Locomotion |
| (Dff) |
|
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| Flagellar Locomotion |
| (Dfg) |
|
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| Flagella Videos |
|
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|
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| Ciliary Propulsion |
| (Dfh) |
|
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| Cilia Videos |
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|
|
| Internal flows and Mucus Propulsion |
| (Dfi) |
|
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| Mucus Videos |
|
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|
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| References |
|
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| FLUID FLOW MEASUREMENT | (K) |
|
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| Preparation for Experiments | (Ka) |
|
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| Design of Experiments | (Kb) |
|
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| Experimental Techniques | (Kc) |
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|
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| Introduction |
| (Kca) |
|
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| Auto- and Cross-Correlation |
| (Kcb) |
|
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| Least Squares Fits |
| (Kcc) |
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| Instrumentation | (Kd) |
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|
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| Introduction |
| (Kda) |
|
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| Flow Visualization |
| (Kdb) |
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|
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| Introduction |
|
| (Kdba) |
|
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| Flow Tracers |
|
| (Kdbb) |
|
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| Particle Image Velocimetry |
|
| (Kdbc) |
|
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| Optical Techniques |
|
| (Kdbd) |
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| Flow Rate and Velocity |
| (Kdc) |
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|
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| Introduction |
|
| (Kdca) |
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| Measurements using Bernoulli's Equation |
|
| (Kdcb) |
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| Electromagnetic Flow Meters |
|
| (Kdcc) |
|
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| Laser Velocimetry |
|
| (Kdcd) |
|
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| Acoustic Doppler Velocimetry |
|
| (Kdce) |
|
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| Vortex Shedding Flowmeter |
|
| (Kdcf) |
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| Pressure, Stresses and Sound |
| (Kdd) |
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| Introduction |
|
| (Kdda) |
|
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| Manometers |
|
| (Kddb) |
|
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| Strain Gauges |
|
| (Kddc) |
|
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| Pressure Transducers |
|
| (Kddd) |
|
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| Acoustic Pressures |
|
| (Kdde) |
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| Forces |
| (Kde) |
|
|
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| Introduction |
|
| (Kdea) |
|
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| Force Balances |
|
| (Kdeb) |
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| Acceleration and Vibration |
| (Kdf) |
|
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| Other Fluid Measurements |
| (Kdg) |
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| Some Facilities | (Ke) |
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|
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| Introduction |
| (Kea) |
|
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| Wind Tunnels |
| (Keb) |
|
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| Water Tunnels |
| (Kec) |
|
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| Towing Tanks |
| (Ked) |
|
|
| Model Basins |
| (Kee) |
|
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|
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| References |
|
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| FLUID MACHINERY | (M) |
|
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| Introduction | (Ma) |
|
|
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| Introduction to Fluid Machinery |
| (Maa) |
|
|
| Turbomachines |
|
| (Mac) |
|
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| Cavitation |
|
| (Mad) |
|
|
| Unsteady Flows |
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| Pumps | (Mb) |
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| Introduction to Pumps |
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| Types of Pumps |
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| Fluid Mechanics of Centrifugal and Axial Flow Pumps |
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| Introduction |
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| Geometric Notation |
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| Cascades |
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| Flow Notation |
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| Specific Speed |
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| Pump Geometries |
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| Energy Balance |
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| Idealized Non-cavitating Pump Performance |
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| Four-quadrant Performance |
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| Pumps in Parallel |
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| Pumps in Series |
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| Two-dimensional Performance Analysis |
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| Introduction |
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| (Mbca) |
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| Linear Cascade Analyses |
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| Deviation Angle |
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| Viscous Effects in Linear Cascades |
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| Radial Cascade Analyses |
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| Viscous Effects in Radial Flows |
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| Other Flow Features |
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| Three-Dimensional Flow Effects |
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| Radial Equilibrium Example |
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| Discharge Flow Management |
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| Prerotation |
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| Other Secondary Flows |
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| Jet Pumps |
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| Compressors |
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| Positive Displacement Pumps |
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| Cavitation |
| (Mbe) |
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| Introduction |
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| (Mbea) |
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| Cavitation Parameters |
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| Cavitation Inception |
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| Scaling of Cavitation Inception |
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| Pump Performance |
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| (Mbee) |
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| Types of Impeller Cavitation |
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| (Mbef) |
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| Cavitation Inception Data |
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| (Mbeg) |
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| Cavitation Bubble Dynamics |
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| (Mbew) |
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| Cavitation Damage |
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| (Mbeh) |
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| Mechanism of Cavitation Damage |
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| (Mbex) |
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| Cavitation Noise |
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| (Mbei) |
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| Cavitating Pump Performance |
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| (Mbej) |
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| Inducer Designs |
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| Inducer Performance |
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| Effects of Inducer Geometry |
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| (Mbep) |
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| Analyses of Cavitation in Pumps |
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| (Mbeq) |
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| Thermal Effect on Pump Performance |
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| (Mber) |
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| Free Streamline Methods |
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| (Mbes) |
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| Supercavitating Cascades |
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| (Mbet) |
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| Partially Cavitating Cascades |
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| (Mbeu) |
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| Cavitation Performance Correlations |
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| (Mbev) |
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| Inducer Cavitation Videos |
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| Pump Cavitation Videos |
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| Pump Vibration |
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| Introduction |
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| (Mbfa) |
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| Frequencies of Oscillation |
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| Unsteady Flows |
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| Rotating Stall |
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| (Mbfd) |
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| Rotating Cavitation |
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| (Mbfe) |
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| Surge |
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| (Mbff) |
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| Auto-oscillation |
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| (Mbfg) |
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| Rotor-Stator Interaction: Flow Patterns |
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| (Mbfh) |
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| Rotor-Stator Interaction: Forces |
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| (Mbfi) |
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| Developed Cavity Oscillation |
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| (Mbfj) |
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| Acoustic Resonances |
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| (Mbfk) |
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| Blade Flutter |
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| (Mbfm) |
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| Pogo Instabilities |
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| (Mbfn) |
| Turbines | (Md) |
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| Introduction |
| (Mda) |
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| Types of Turbines |
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| Pelton Wheel |
| (Mdc) |
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| Impulse and Reaction Turbines |
| (Mdd) |
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| Basic Fluid Mechanics of Turbines |
| (Mde) |
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| Two-dimensional Analyses |
| (Mdi) |
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| Reaction Turbines |
| (Mdj) |
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| Propeller and Kaplan Turbines |
| (Mdf) |
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| Francis Turbine |
| (Mdg) |
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| Cavitation in Turbines |
| (Mdh) |
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| Fluid Couplings | (Me) |
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| Introduction |
| (Mea) |
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| Performance Analysis |
| (Meb) |
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| Reversible Fluid Coupling |
| (Mec) |
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| Rotordynamics of Fluid Machinery | (Mc) |
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| Introduction |
| (Mca) |
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| Notation |
| (Mcb) |
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| Hydrodynamic Bearings and Seals |
| (Mcc) |
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| Bearings at Low Reynolds Numbers |
| (Mcd) |
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| Annulus at High Reynolds Numbers |
| (Mce) |
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| Squeeze Film Dampers |
| (Mcf) |
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| Turbulent Annular Seals |
| (Mcg) |
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| Labyrinth Seals |
| (Mch) |
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| Blade Tip Rotordynamic Effects |
| (Mci) |
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| Steady Radial Forces |
| (Mcj) |
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| Effect of Cavitation |
| (Mck) |
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| Centrifugal Pumps |
| (Mcm) |
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| Moments and Lines of Action |
| (Mcn) |
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| Axial Flow Inducers |
| (Mcp) |
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| Propellers | (Mf) |
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| Introduction |
| (Mfa) |
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| Propellers |
| (Mfb) |
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| Performance |
| (Mfc) |
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| Efficiency |
| (Mfd) |
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| Propeller Cavitation |
| (Mfe) |
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| Propeller Cavitation Damage |
| (Mff) |
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| Cavitation Performance |
| (Mfg) |
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| Dynamic Characteristics |
| (Mfh) |
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| Propeller Cavitation Videos |
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| Flow Valves | (Mg) |
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| Hydraulic Valves |
| (Mga) |
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| Hydraulic Control |
| (Mgb) |
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| References |
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| MULTIPHASE FLOW | (N) |
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| Introduction | (Na) |
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| Scope |
| (Naa) |
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| Multiphase Flow Models |
| (Nab) |
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| Multiphase Flow Notation |
| (Nac) |
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| Size Distributions |
| (Nad) |
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| Equations of Motion | (Nb) |
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| Averaging |
| (Nba) |
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| Conservation of Mass |
| (Nbb) |
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| Number Continuity Equation |
| (Nbc) |
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| Fick's Law |
| (Nbd) |
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| Equations of Motion |
| (Nbe) |
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| Disperse Phase Momentum Equation |
| (Nbf) |
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| On Disperse Phase Interaction |
| (Nbg) |
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| Equations for Conservation of Energy |
| (Nbh) |
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| Heat Transfer between Separated Phases |
| (Nbi) |
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| Interaction with turbulence | (Nc) |
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| Particle and Turbulence |
| (Nca) |
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| Effect on Turbulence Stability |
| (Ncb) |
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| On the equations of motion | (Nd) |
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| Comments |
| (Nda) |
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| Averaging |
| (Ndb) |
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| Averaging Contributions to the Mean Motion |
| (Ndc) |
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| Averaging in Pipe Flows |
| (Ndd) |
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| Modeling with the Combined Phase Equations |
| (Nde) |
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| Mass, Force and Energy Interaction Terms |
| (Ndf) |
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| Single particle motion | (Ne) |
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| Introduction |
| (Nea) |
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| Sphere Flow - High Reynolds Number |
| (Neb) |
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| Sphere Flow - Low Reynolds Number |
| (Nec) |
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| Molecular Effects |
| (Ned) |
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| Unsteady Particle Motions |
| (Nee) |
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| Effect of Concentration on Added Mass |
| (Nef) |
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| Unsteady Potential Flow |
| (Neg) |
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| Unsteady Stokes Flow |
| (Neh) |
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| Particle Equation of Motion |
| (Nei) |
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| Magnitude of Relative Motion |
| (Nej) |
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| Effect of Concentration on Particle Motion |
| (Nek) |
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| Effect of Concentration on Particle Drag |
| (Nel) |
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| Bubble or droplet translation | (Nf) |
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| Introduction |
| (Nfa) |
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| Dimensional Analysis of Deformation due to Translation |
| (Nfb) |
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| Bubble Shapes and Terminal Velocities |
| (Nfc) |
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| Marangoni Effects |
| (Nfd) |
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| Bjerknes Forces |
| (Nfe) |
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| Growing Bubbles |
| (Nff) |
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| Bubble growth and collapse | (Ng) |
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| Introduction |
| (Nga) |
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| Rayleigh-Plesset Equation |
| (Ngb) |
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| Bubble Contents |
| (Ngc) |
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| In the Absence of Thermal Effects |
| (Ngd) |
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| Stability of Vapor/Gas Bubbles |
| (Nge) |
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| Thermal Effects on Growth |
| (Ngf) |
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| Thermally Controlled Growth |
| (Ngg) |
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| Cavitation and Boiling |
| (Ngh) |
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| Bubble Growth by Mass Diffusion |
| (Ngi) |
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| Bubble Natural Frequencies |
| (Ngj) |
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| Nonlinear Effects |
| (Ngk) |
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| Rectified Mass Diffusion |
| (Ngl) |
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| Cavitation | (Nh) |
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| Introduction |
| (Nha) |
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| Cavitation Inception |
| (Nhb) |
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| Cavitation Bubble Collapse |
| (Nhc) |
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| Shape during Bubble Collapse |
| (Nhd) |
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| Cavitation Damage |
| (Nhe) |
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| Cavitating Bubble Shapes |
| (Nhf) |
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| Cavitation Noise |
| (Nhg) |
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| Cavitation Luminescence |
| (Nhh) |
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| Cavitation Chemistry |
| (Nhi) |
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| Vapor Explosions |
| (Nhj) |
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| Bubble Dynamics Videos |
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| Cavitating Flows | (Nt) |
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| Introduction |
| (Nta) |
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| Traveling Bubble Cavitation |
| (Ntb) |
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| Bubble Flow Interactions |
| (Ntc) |
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| Experimental Observations |
| (Ntd) |
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| Large Scale Cavitation Structures |
| (Nte) |
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| Vortex Cavitation |
| (Ntf) |
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| Cloud Cavitation |
| (Ntg) |
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| Attached or Sheet Cavitation |
| (Nth) |
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| Cavitating Foils |
| (Nti) |
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| Cavity Closure |
| (Ntj) |
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| References |
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| Cavitating Flow Videos |
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| Free Streamline Flows | (Nu) |
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| Introduction |
| (Nua) |
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| Cavity Closure Models |
| (Nub) |
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| Cavity Detachment Models |
| (Nuc) |
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| Wall Effects and Choked Flows |
| (Nud) |
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| Steady Planar Flows |
| (Nue) |
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| Some Nonlinear Results |
| (Nuf) |
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| Linearized Methods |
| (Nug) |
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| Flat Plate Hydrofoil |
| (Nuh) |
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| Cavitating Cascades |
| (Nui) |
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| Three Dimensional Flows |
| (Nuj) |
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| Numerical Methods |
| (Nuk) |
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| Unsteady Flows |
| (Nul) |
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| References |
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| Boiling and Condensation | (Ni) |
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| Introduction |
| (Nia) |
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| Pool Boiling on Horizontal Surface |
| (Nib) |
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| Nucleate Boiling on Horizontal Surface |
| (Nic) |
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| Film Boiling on Horizontal Surface |
| (Nid) |
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| Leidenfrost Effect |
| (Nie) |
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| Boiling on Vertical Surface |
| (Nif) |
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| Film Boiling on Vertical Surface |
| (Nig) |
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| Condensation |
| (Nih) |
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| Film Condensation |
| (Nii) |
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| Flow patterns | (Nj) |
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| Multiphase Flow Patterns |
| (Nja) |
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| Examples of Flow Regime Maps |
| (Njb) |
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| Slurry Flow Regimes |
| (Njc) |
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| Vertical Pipe Flow |
| (Njd) |
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| Flow Pattern Classifications |
| (Nje) |
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| Disperse Phase Separation and Dispersion |
| (Njf) |
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| Example: Horizontal Pipe Flow |
| (Njg) |
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| Particle Size and Particle Fission |
| (Njh) |
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| Examples of Flow-determined Bubble Size |
| (Nji) |
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| Bubbly or Mist Flow Limits |
| (Njj) |
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| Other Bubbly Flow Limits |
| (Njk) |
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| Other Particle Size Effects |
| (Njl) |
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| Stability of Disperse Mixtures |
| (Njm) |
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| Inhomogeneity Instability of Vertical Flows |
| (Njn) |
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| Kelvin-Helmholtz Instability |
| (Njo) |
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| Stratified Flow Instability |
| (Njp) |
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| Annular Flow Instability |
| (Njq) |
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| Two-Component Flow Videos |
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| Three-Component Flow Videos |
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| Energy conversion | (Nk) |
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| Introduction |
| (Nka) |
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| Disperse Horizontal Flow Friction |
| (Nkb) |
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| Homogeneous Flow Friction |
| (Nkc) |
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| Heterogeneous Flow Friction |
| (Nkd) |
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| Vertical Flow Friction |
| (Nke) |
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| Two Component Separated Flow Friction |
| (Nkf) |
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| Friction with Phase Change |
| (Nkg) |
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| Multiphase Flow in Pumps |
| (Nkh) |
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| Homogeneous Flows | (Nl) |
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| Introduction |
| (Nla) |
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| Sonic Speed |
| (Nlb) |
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| Sonic Speed at Higher Frequencies |
| (Nlc) |
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| Sonic Speed with Phase Change |
| (Nld) |
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| Barotropic Relations |
| (Nle) |
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| Nozzle Flows |
| (Nlf) |
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| Vapor/Liquid Nozzle Flow |
| (Nlg) |
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| Condensation Shocks |
| (Nlh) |
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| Flows with bubble dynamics | (Nm) |
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| Introduction |
| (Nma) |
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| Basic Equations |
| (Nmb) |
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| Acoustics of Bubbly Mixtures |
| (Nmc) |
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| Comparison with Experiments |
| (Nmd) |
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| Normal Shock Waves in Bubbly Flows |
| (Nme) |
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| Shock Waves Structure |
| (Nmf) |
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| Oblique Shock Waves |
| (Nmg) |
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| Spherical Bubble Cloud Modes |
| (Nmh) |
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| Spherical Bubble Cloud Response |
| (Nmi) |
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| Flows with gas dynamics | (Nn) |
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| Introduction |
| (Nna) |
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| Equations for a Dusty Gas |
| (Nnb) |
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| Homogeneous Flow with Gas Dynamics |
| (Nnc) |
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| Velocity and Temperature Relaxation |
| (Nnd) |
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| Normal Shock Wave |
| (Nne) |
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| Acoustic Damping |
| (Nnf) |
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| Linear Stability of Laminar Flow |
| (Nng) |
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| Flow over a Wavy Wall |
| (Nnh) |
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| Small Slip Perturbation |
| (Nni) |
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| Sprays | (No) |
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| Introduction |
| (Noa) |
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| Ocean Spray |
| (Nob) |
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| Spray Formation by Bubbling |
| (Noc) |
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| Spray Formation by Wind Shear |
| (Nod) |
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| Spray Formation by Initially Laminar Jets |
| (Noe) |
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| Spray Formation by Turbulent Jets |
| (Nof) |
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| Single Droplet Mechanics |
| (Nog) |
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| Single Droplet Combustion |
| (Noh) |
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| Spray Combustion |
| (Noi) |
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| Granular flows | (Np) |
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| Introduction |
| (Npa) |
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| Particle Interaction Models |
| (Npb) |
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| Computer Simulations |
| (Npc) |
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| Wave Propagation |
| (Nps) |
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| Effects of Vibration |
| (Npt) |
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| Soil Liquefaction |
| (Npu) |
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| Flow Regimes |
| (Npd) |
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| Flow Regime Rheologies |
| (Npe) |
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| Flow Regime Boundaries |
| (Npf) |
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| Slow Granular Flow |
| (Npg) |
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| Mohr-Coulomb Models |
| (Nph) |
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| Hopper Flows |
| (Npi) |
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| Rapid Granular Flow |
| (Npj) |
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| Examples of Rapid Flow Equations |
| (Npk) |
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| Boundary Conditions |
| (Npl) |
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| Rapid Flow Simulations |
| (Npm) |
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| Chute Flows |
| (Npq) |
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| Heat Transfer |
| (Npr) |
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| Effect of Interstitial Fluid |
| (Npn) |
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| Particle Collisions |
| (Npo) |
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| Classes of Interstitial Fluid Effects |
| (Npp) |
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| Shear Flow Simulation Videos |
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| Chute Flow Simulation Videos |
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| Mixture Flow Simulation Videos |
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| Force Chain Videos |
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| Wave Propagation Videos |
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| Vibration Effects Videos |
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| Booming Dunes Videos |
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| Drift flux models | (Nq) |
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| Introduction |
| (Nqa) |
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| Drift Flux Method |
| (Nqb) |
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| Vertical Pipe Flow |
| (Nqc) |
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| Fluidized Bed |
| (Nqd) |
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| Pool Boiling Crisis |
| (Nqe) |
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| Corrections for Pipe Flows |
| (Nqf) |
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| System instablities | (Nr) |
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| Introduction |
| (Nra) |
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| System Structure |
| (Nrb) |
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| Quasistatic Stability |
| (Nrc) |
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| Turbomachine Surge |
| (Nrd) |
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| Ledinegg Instability |
| (Nre) |
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| Geyser Instability |
| (Nrf) |
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| Concentration Waves |
| (Nrg) |
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| Dynamic Instabilities |
| (Nrh) |
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| Cavitation Surge in Pumps |
| (Nri) |
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| Chugging and Condensation Oscillations |
| (Nrj) |
|
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| Unsteady Internal Flow Methods |
| (Nrk) |
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| Transfer Functions |
| (Nrl) |
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| Uniform Homogeneous Flow |
| (Nrm) |
|
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| Non-Cavitating Pumps |
| (Nrp) |
|
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| Cavitating Inducers |
| (Nrq) |
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| Bubbly Flow Model for Cavitating Inducers |
| (Nrt) |
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| Cavitating Turbine |
| (Nrr) |
|
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| Cavitating Propeller |
| (Nrs) |
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| Kinematic waves | (Ns) |
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| Introduction |
| (Nsa) |
|
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| Kinematic Wave Analysis |
| (Nsb) |
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| Kinematic Wave Speed at Flooding |
| (Nsc) |
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| Kinematic Waves in Steady Flows |
| (Nsd) |
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| Kinematic Shock Waves |
| (Nse) |
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| Kinematic Shock Stability |
| (Nsf) |
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| Compressibility and Phase Change Effects |
| (Nsg) |
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| Batch Sedimentation |
| (Nsh) |
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| Dynamics of Cavitating Pumps |
| (Nsi) |
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| Two-dimensional Shocks |
| (Nsj) |
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| References |
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| NUMERICAL METHODS | (O) |
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| Numerical Methods | (Oa) |
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| Boundary Integral Methods | (Ob) |
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| Finite Difference Methods | (Oc) |
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| Finite Differences Example | (Od) |
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| Finite Element Methods | (Oe) |
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| References |
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